KR101840680B1 - Afforestation apparatus using nano bubbles - Google Patents

Abstract

The present invention relates to a recording apparatus using ultrafine bubbles. More particularly, the present invention relates to a recording apparatus using ultrafine bubbles, in particular, a screen provided between recording modules for storing rainwater in a recording module in a rainy season and supplying minute bubbles to stored rainwater, And relates to a recording apparatus using minute bubbles. In the present invention, a hollow recording module is installed at an angle so that many plants can be cultivated even in a narrow place. The present invention can effectively collect rainwater during rainy weather by providing a screen between recording modules in which plants grow. According to the present invention, a micro-bubble generating module is installed in a recording module, and micro-bubbles are discharged into rainwater in the recording module by rainwater and air, thereby promoting plant growth. In addition, since the case hole diameter of the recording module can be adjusted, plants of various sizes can be freely planted in the recording module. The present invention can regulate the hydrogen ion concentration of the rainwater in the recording module so that the plant can grow well.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a recording apparatus using ultrafine air bubbles (AFFORESTATION APPARATUS USING NANO BUBBLES)

The present invention relates to a recording apparatus using ultrafine bubbles. More particularly, the present invention relates to a recording apparatus using ultrafine bubbles, in particular, a screen provided between recording modules for storing rainwater in a recording module in a rainy season and supplying minute bubbles to stored rainwater, And relates to a recording apparatus using minute bubbles.

In general, the cultivation of crops takes place in the form of houses combined with open farmland or farmland. However, in this case, if the crop growth rate is to be increased, the farmland should be increased accordingly. In addition, there is a problem in that farmers have to purchase the agricultural land at a separate expense, thereby increasing the burden on the grower.

In addition, conventional crop cultivation often uses ground water as agricultural water. In this case, there is a disadvantage to plant growth due to the use of oxygen-deficient groundwater.

Korean Patent Publication No. 10-2015-0011457 (Feb.

An object of the present invention is to provide a recording apparatus using ultrafine bubbles capable of cultivating crops irrespective of agricultural land.

Another object of the present invention is to provide a recording apparatus using ultrafine bubbles which is advantageous for plant growth by increasing the oxygen amount of water.

According to an aspect of the present invention, there is provided a recording apparatus using ultrafine bubbles comprising a plurality of recording modules for growing plants, and a screen connected between the plurality of recording modules for introducing rainwater into the plurality of recording modules. Lt; / RTI >

The plurality of recording modules may include a rainwater inflow port through which the rainwater flows, a case hole through which the plant is exposed to the outside, and a hollow columnar case having a guide formed on the inner circumference thereof. And the like.

Preferably, the upper portion of the case is openable for detachment of the resulting plate. And a micro-bubble generating device mounted on an open longitudinal side of the case.

The screen is fixed on one side of a lower portion of one recording module of the plurality of recording modules, and is fixed to the other side of the other recording module adjacent to the one recording module. The rainwater inflow hole is formed by the rainwater flowing to one side of the screen. And is formed at a lower portion of the one recording module to be introduced into the recording module.

A hydrogen ion concentration sensor for measuring a hydrogen ion concentration of rainwater flowing into the case, a carbon dioxide injecting device for injecting carbon dioxide when the rainwater is acidic, and a carbon dioxide injecting device for injecting carbon dioxide when the rainwater is alkaline .

The case hole regulating plate may have a donut shape in which diameters of the case holes are different from each other.

In the present invention, a hollow recording module is installed at an angle so that many plants can be cultivated even in a narrow place.

The present invention can effectively collect rainwater during rainy weather by providing a screen between recording modules in which plants grow.

The present invention can promote plant growth by mounting a micro-bubble generating module in a recording module and discharging fine bubbles with rainwater and air into rainwater in the recording module to increase the amount of oxygen.

According to the present invention, the diameter of the case hole of the recording module can be adjusted, and plants of various sizes can be freely planted in the recording module.

The present invention can regulate the hydrogen ion concentration of the rainwater in the recording module so that the plant can grow well.

1 is a schematic perspective view of a recording apparatus using microbubbles according to the present invention.
2 is a sectional view of a recording apparatus using ultrafine bubbles according to the present invention.
3 is a plan view of a case and a case hole regulating plate to which a case hole regulating plate is applied in a recording apparatus using ultrafine bubbles according to the present invention.
4 is a sectional view of a case and a case hole regulating plate to which a case hole regulating plate is applied in a recording apparatus using ultrafine bubbles according to the present invention.
5 is a plan view of a part of a recording apparatus using ultrafine bubbles according to a modification of the present invention.
6 is a side view of a recording apparatus using ultrafine bubbles according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

It will be apparent to those skilled in the art that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to let you know. Like reference numerals refer to like elements throughout.

FIG. 1 is a schematic perspective view of a recording apparatus using ultrafine bubbles according to the present invention, and FIG. 2 is a sectional view of a recording apparatus using ultrafine bubbles according to the present invention.

As shown in FIG. 1, the recording apparatus using ultrafine bubbles according to the present invention includes a recording apparatus 100 spaced apart from each other and a screen 200 connecting the recording apparatus 100. Of course, the present invention may further include a support for supporting the recording apparatus 100 on the ground. Here, the support body is detachably attached to the case 111a of the video recording apparatus 100, and a pedestal is formed below the pedestal, and a pillar is formed on the pedestal so that the video recording module can be detachably attached to the pillar. Of course, the present invention can also be used as a light-shielding film, such as a cafe entrance, in which case the pedestal of the support can be fixed to the top of the cafe entrance.

The recording apparatus 100 grows plants using rainwater stored therein. In the present embodiment, the recording apparatus 100 exemplifies three recording apparatuses, that is, the first recording apparatus 110, the second recording apparatus 120, and the third recording apparatus 130, as shown in FIG. In addition, the three recording apparatuses all have the same structure, and the first recording apparatus 110 will be described below.

The first recording apparatus 110 includes a first recording module 111 and a first micro-bubble generating module 112 mounted on one side of the first recording module 111, as shown in FIG.

The first recording module 111 is for growing plants and includes a case 111a having a hollow cylindrical shape and a living plate 111c provided in the case 111a.

The case 111a has a built-in generating plate 111c for storing rainwater therein and exemplifies a cylindrical shape having a space formed therein as described above. However, the present invention is not limited thereto, and the case 111a may be formed in an elliptical columnar shape and a polygonal columnar shape including a cylindrical shape. The case 111a includes at least one case hole regulating plate 111e formed on the upper portion of the case 111a to expose the plant to the outside of the case 111a and a case 111a, And a rainwater inflow port 111d for inflow into the inside. It is preferable that the upper portion of the case 111a in which the case hole regulating plate 111e is formed is formed of transparent or translucent resin and the lower portion of the case 111a is formed of opaque resin or metal. This is because the upper part of the case 111a in which the case hole regulating plate 111e is formed is formed of a transparent or translucent resin that can be projected because the plants must grow and the lower part of the case 111a in which rainwater is stored reduces the influence of light It is formed of opaque resin or metal. Of course, the present invention is not limited thereto, and the entire case 111a may be made of transparent or opaque resin. A guide for supporting the generation plate 111c to be described later is formed in the case 111a. The guide 111a is provided inside the case 111a so that the generation plate 111c may float in the case 111a, Respectively. At this time, it is preferable that the guide is formed in a 'C' shape, and the generation plate 111c is slidably mounted in the guide.

Meanwhile, the present invention may further include a case hole regulating plate 111e regulating plate for regulating the size of the case hole regulating plate 111e.

FIG. 3 is a plan view of a case 111a and a case hole regulating plate 111e to which a case hole regulating plate 111e regulating plate is applied in a recording apparatus using ultrafine bubbles according to the present invention. Sectional view of a case 111a and a case hole regulating plate 111e to which a case hole regulating plate 111e regulating plate is applied.

The case hole regulating plate 111e regulating plate is in the form of a ring and is detachably attached to the edge of the case hole regulating plate 111e to adjust the diameter of the case hole regulating plate 111e. 3 and 4, the at least one case hole regulating plate 111e regulating plate having different diameters from each other is mounted on the case hole regulating plate 111e, and the case hole regulating plate 111e is inserted into the case hole regulating plate 111e ). Here, the ring-shaped casing hole regulating plate 111e regulating plate can be coupled to each other by the unevenness formed on the outer peripheral edge and the inner peripheral edge. In addition, the number of the case hole regulating plate 111e can be increased or decreased according to the diameter of the desired case hole regulating plate 111e. Of course, in order to detach the case hole regulating plate 111e, it is preferable that the case hole regulating plate 111e is made of a relatively flexible material such as rubber or silicone. At this time, if the case hole regulating plate 111e regulating plate is too flexible, it is difficult to be coupled to the case hole regulating plate 111e, and thus it is preferable that the case hole regulating plate 111e is formed so as to be able to maintain the shape when no external force is applied. As described above, the diameter of the case hole regulating plate 111e is adjusted according to the type of plant, so that various kinds of plants having various sizes can be grown.

The growth plate 111c is for planting plants and is provided inside the case 111a. Here, the growth plate 111c is in the shape of a rectangular plate whose edges are bent upward, and the soil S is filled in the inside thereof. Here, it is preferable for the soil (S) to be filled only at the position where plants are planted for lightening. Further, the generation plate 111c is slidably engaged with the guide described above so that the edge thereof does not flow inside the case 111a. A fabric layer F having a core W is formed on the bottom surface of the growth plate 111c and a growth plate 111c hole through which the core W is passed is formed. The raised plate 111c hole has a cross section cut from the upper part to the lower part in the 'a' shape. That is, when punching the hole of the growth plate 111c, a part of the hole is left not to be cut, and it is bent into the inside or the outside. This is to prevent the soil S filled in the growth plate 111c from escaping into the hole of the growth plate 111c due to its weight. The wick W is in contact with the lower surface of the case 111a and is absorbed into the soil S of the living plate 111c through the wick W when rainwater flows into the case 111a.

On the other hand, the present invention can also open the upper portion of the case 111a in order to mount the above-described generation plate 111c in the case 111a. That is, the upper part of the case 111a may be completely separated or opened, or the upper part of the case 111a may be opened by being coupled with the upper part of the case 111a by the hinge, . In this case, it is preferable that the aforementioned guide is in the form of 'b' rather than 'c'. However, the present invention is not limited to this, and one side of the case 111a can be opened. In this case, a minute bubble generating module may be provided on one side of the opened case 111a.

The first micro-bubble generating module 112 generates minute bubbles by using rainwater stored in the case 111a. To this end, the first micro-bubble generating module 112 is generated by the micro-bubble generator 112c, the rainwater inflow path 112b for introducing the rainwater into the micro-bubble generator 112c, and the micro-bubble generator 112c A nozzle 112d for discharging fine bubbles generated by the fine bubble generator 112c, and a lid 112a for accommodating the fine bubble generator 112c and mounting the fine bubble generator 112c on the recording module. The micro bubble generator 112c is provided with an air suction path for sucking the outside air. The micro bubble generator 112c according to the present invention is configured such that the rainwater flowing into the rainwater inflow path 112b and the air Air is mixed, and fine bubbles are generated based on the mixed air. The microbubble generator 112c also includes a mixing pump for mixing rainwater and air to produce a gas-liquid mixture in which the air is supersaturated. Here, the gas-liquid mixture generated in the mixing pump is atomized by the nozzle 112d and discharged into the rainwater stored in the lower portion of the case 111a. The first micro-bubble generating module 112 having such a structure is detachably installed on one side of the case 111a. Of course, the micro-bubble generating module must be supplied with a separate power source, which can be performed by a wired line not shown. Of course, the present invention is not limited to this, and rainwater may be used to cause a short circuit and an electric shock, so that a power receiving unit having a coil on one surface of the permalloy is provided inside the exposed surface of the first micro- And a power supply unit attached to the exposed surface of the first micro-bubble generating module 112 and having a coil on one side of the permalloy to supply power wirelessly.

5 is a plan view of a part of a recording apparatus using ultrafine bubbles according to a modification of the present invention.

Meanwhile, in the present invention, the first micro-bubble generating module 112 may be omitted and only the lid 112a may be provided. That is, a plurality of recording modules according to the present invention are provided with a screen 200 therebetween. At this time, the micro-bubble generating module can be mounted on all the recording modules, but in this case, there is a problem that the production cost increases. In order to solve this problem, the present invention can mount a micro-bubble generating module in only a part of a plurality of recording modules and share minute bubbles generated in the micro-bubble generating module with the remaining recording modules. As shown in FIG. 5, the nozzle 112d of the minute bubble generating module of one recording module is branched, and minute bubbles can be supplied to another adjacent recording module through the extension nozzle 113. [ In addition, the amount of the rainwater in each recording module can be made equal by moving the rainwater stored in each recording module. Of course, it is also possible to provide a water level sensor in each recording module, and to transfer the accumulated rainwater to the other recording modules lacking the rainwater stored in the one recording module more than the other recording modules.

6 is a side view of a recording apparatus using ultrafine bubbles according to the present invention.

The screen 200 introduces the rainwater into the recording module during rainfall. The present exemplary embodiment illustrates two screens 200, that is, a first screen 210 and a second screen 220. The screen 200 includes one recording module among a plurality of recording modules, It is connected between the other recording modules so that rainwater flows to the recording module during rain. To this end, one side of the screen 200 is fixed to the lower part of one recording module, and the other side of the screen 200 is fixed to the upper part of the other recording module so that the screen 200 is inclined. In addition, the screen 200 may be configured such that the edge between one side and the other side is bent upward so that the rainwater flows as much as possible in one recording module when raining. The rainwater inflow port 111d is formed to be positioned on the screen 200 and the screen 200 is connected to the lowermost end of the case 111a so that the rainwater inflow port 111d is also formed at the lowermost end of the case 111a do. Of course, the rainwater inlet 111d is formed higher than the screen 200. [ However, the present invention is not limited to this. The screen 220 may be connected to the middle of the side surface of the case 111a in order to increase the amount of rainwater stored in the lower portion of the case 111a, 220 slightly higher than the case 111a. With such a structure, the rainwater can flow to the recording module through the screen 200 in the rain during the rain as shown in FIG. 6 (arrows in FIG. 6).

Meanwhile, the present invention can control the hydrogen ion concentration of the rainwater according to the hydrogen ion concentration (pH) of the rainwater flowing into the case 111a. To this end, the present invention includes a hydrogen ion concentration sensor for detecting the hydrogen ion concentration of the rainwater flowing into the case 111a, and a carbon dioxide injection device for injecting carbon dioxide according to the detected hydrogen ion concentration of the rainwater. Here, the hydrogen ion concentration sensor is not provided separately and can be built in the micro-bubble generating module. In this case, the concentration of hydrogen ions in the rainwater flowing into the rainwater inlet 111d can be measured. In addition, the carbon dioxide injection device can be embedded in the micro-bubble generating module, and carbon dioxide can be injected when mixing external air and rainwater. Of course, for this purpose, a carbon dioxide tank in which carbon dioxide is stored in the micro-bubble generating module or carbon dioxide should be supplied from the outside. In the present invention, when the hydrogen ion concentration of the rainwater is 10.3 or more, carbon dioxide is injected to decrease the hydrogen ion concentration of the rainwater, and when the hydrogen ion concentration of the rainwater is 5.5 to 6.3 or less, carbonic acid is injected to increase the hydrogen ion concentration of the rainwater .

Further, the present invention may add urine to the rainwater flowing into the case 111a. In this case, it can help a plant grow more.

As described above, the present invention provides a screen between the greening modules in which plants grow, thereby effectively collecting rainwater during rainfall. According to the present invention, a micro-bubble generating module is installed in a recording module, and micro-bubbles are discharged into rainwater in the recording module by rainwater and air, thereby promoting plant growth. In addition, since the case hole diameter of the recording module can be adjusted, plants of various sizes can be freely planted in the recording module. The present invention can regulate the hydrogen ion concentration of the rainwater in the recording module so that the plant can grow well.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the appended claims. You will understand.

100: recording apparatus 110: first recording apparatus
111: first recording module 112: first minute bubble generating module
113: extension nozzle 120: second recording module
130: Third recording module 200: Screen
210: first screen 220: second screen
111a: Case 111b: Case hole
111c: live plate 111d: rainwater inlet
111e: Case hole regulating plate 112a: Cover
112b: Rainwater inflow path 112c: Micro bubble generator
112d: nozzle S: soil
F: Fabric layer W: Wick

Claims (7)

A plurality of recording modules for growing plants and a screen connected between the plurality of recording modules to introduce rainwater into the plurality of recording modules,
Wherein the plurality of recording modules include a rainwater inlet through which the rainwater flows, a case hole through which the plant is exposed to the outside, a hollow columnar case having a guide formed on the inner circumference thereof, A case hole regulating plate having a donut shape in which at least one diameter for controlling the diameter of the case hole is different from each other, and a fine bubble producing device mounted on one side of the case in the open longitudinal direction,
The screen is fixed to one side of the lower side of one recording module among the plurality of recording modules, and is fixed to the other side of the other recording module close to the one recording module. The upper part of the case is detachable Open,
A rainwater inflow hole formed in a lower portion of the one recording module so that rainwater flowing into one side of the screen flows into a recording module; a hydrogen ion concentration sensor for measuring a hydrogen ion concentration of the rainwater flowing into the case; A carbon dioxide injecting device for injecting carbon dioxide when the acid rain is acidic, and a carbon dioxide injecting device for injecting carbon dioxide when the rainwater is alkaline. delete delete delete delete delete delete

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